Dear everyone,
I can't resist to ask for people's opinion on a certain compromise between
imperative and functional programming which a found in the "numerix" library
of Michel Quercia. Of course, if you read this, Michel, I would be
particularly grateful for your own opinion.
It's about abstracting the ! operator by introducing a function
val look : tref -> t
which coerces a mutable object into a non-mutable one. Using this function
is dangerous because, with this function, the non-mutable type t is not
strictly non-mutable anymore. As the manual says, the result of "look r" is
volatile, it is only guaranteed to be valid until the next in-place
operation involving r. In my own experience, mistakes occur faster than
expected. But this is a great and elegant trick. Using "look", every single
function with arguments of type t, say
val add_in : tref -> t -> t -> unit,
replaces two or more functions which would otherwise be necessary, in this
case
val add_in1 : tref -> t -> t -> unit
val add_in2 : tref -> tref -> t -> unit
val add_in3 : tref -> tref -> tref -> unit
at least. This would certainly blow up the library to impractical
dimensions. Of course, overloading would help, and "look" might become
obsolete in this way.
However, I think the problem is not mainly about overloading, but about
reintroducing imperative features in an abstract and controlled way. I
could, for instance, also imagine an abstract assign operator
val set : tref -> t -> unit
where the contents of t is not copied but assigned to tref, and thus made
mutable, which could be useful in certain restricted ways.
My question to the caml list: Would you accept such constructions as decent
Caml programming, if applied carefully and only in cases where it allows
what is otherwise impossible (e. g. integrating mutable and non-mutable
objects as it is done in "numerix"). Or is it all just a silent
reintroduction of C pointers, and principally a bad thing?
Regards,
Winfried Dreckmann
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